Astrocytes (from Ancient Greek ἄστρον, ástron, "star" + κÏτος, kútos, "cavity", "cell"), also known collectively as astroglia, are characteristic star-shaped glial cells in the brain and spinal cord. They perform many functions, including biochemical support of endothelial cells that form the blood–brain barrier,[1] provision of nutrients to the nervous tissue, maintenance of extracellular ion balance and a role in the repair and scarring process of the brain and spinal cord following traumatic injuries. The proportion of astrocytes in the brain is not well defined; depending on the counting technique used, studies have found that the astrocyte proportion varies by region and ranges from 20% to 40% of all glia.[2]
Research since the mid-1990s has shown that astrocytes propagate intercellular Ca2+ waves over long distances in response to stimulation, and, similar to neurons, release transmitters (called gliotransmitters) in a Ca2+-dependent manner.[3] Data suggest that astrocytes also signal to neurons through Ca2+-dependent release of glutamate.[4] Such discoveries have made astrocytes an important area of research within the field of neuroscience.